A simple (but flexible enough for most uses) particle system is
provided. Particle systems are used to simulate complex physical effects
such as sparks, fire, magic particles, smoke, mist, magic, etc.

The idea is that a “particle” is emitted at a fixed interval and with a
fixed lifetime. During its lifetime, every particle will have the same
base behavior. What makes every particle different and provides a more
organic look is the “randomness” associated to each parameter. In
essence, creating a particle system means setting base physics
parameters and then adding randomness to them.

Particle systems are added to the scene via the
Particles2D
node. However, after creating that node you will notice that only a white dot was created,
and that there is a warning icon next to your Particles2D node in the inspector. This
is because the node needs a ParticlesMaterial to function.

Particle systems begin with zero particles emitted, then start emitting.
This can be an inconvenience when loading a scene and systems like
a torch, mist, etc. begin emitting the moment you enter. Preprocess is
used to let the system process a given number of seconds before it is
actually drawn the first time.

The speed scale has a default value of 1 and is used to adjust the
speed of a particle system. Lowering the value will make the particles
slower while increasing the value will make the particles much faster.

If lifetime is 1 and there are 10 particles, it means a particle
will be emitted every 0.1 seconds. The explosiveness parameter changes
this, and forces particles to be emitted all together. Ranges are:

0: Emit particles at regular intervals (default value).

1: Emit all particles simultaneously.

Values in the middle are also allowed. This feature is useful for
creating explosions or sudden bursts of particles:

This setting can be used to set the particle system to render at a fixed
FPS. For instance, changing the value to 2 will make the particles render
at 2 frames per second. Note this does not slow down the particle system itself.

This controls the order in which individual particles are drawn. Index
means particles are drawn according to their emission order (default).
Lifetime means they are drawn in order of remaining lifetime.